| Date |
Sections |
Topics |
Prerequisite Skills |
Student Learning Outcomes
|
| Week 1
|
5.1
|
Continuous Functions
|
|
- The definition of a continuous function at a point
- Sequential criterion for continuity
- Discontinuity criterion
|
| Week 1/2
|
5.2
|
Combinations of Continuous Functions
|
|
- Sums, differences, products and quotients of continuous functions on the same domain
- Composition of continuous functions
|
| Week 2
|
5.3
|
Continuous Functions on Intervals
|
|
- Bounded Functions
- The boundedness theorem on closed and bounded intervals
- Definitions of absolute maximum and absolute minimum of a function
- The maximum-minimum theorem
|
| Week 2/3
|
5.3
|
The Intermediate Value Theorem
|
|
- The Location of Roots theorem
- The Intermediate Value Theorem
- The image of a continuous functions on a closed and bounded interval is a closed and bounded interval
|
|
| Week 3
|
5.4
|
Uniform Continuity
|
|
- The definition of uniform continuity
- Nonuniform continuity criteria
- Uniform continuity theorem
|
|
| Week 3/4
|
5.4
|
Lipschitz Functions
|
|
- Definition of a Lipschitz function
- If a function is Lipschtiz, then it is uniformly continuous
|
|
| Week 4
|
5.4
|
The Continuous Extension Theorem
|
|
- Uniform continuity and Cauchy sequences
- The Continuous Extension Theorem
|
|
| Week 5/6
|
5.6
|
Monotone Functions
|
|
- Monotone functions
- The left and right hand limits for interior points of monotone functions
- Defining the jump pf a function at a point
- For a monotone function on an interval, the set of points at which the function is discontinuous is countable
|
|
| Week 6
|
5.6
|
Inverse Functions
|
|
- The continuous inverse theorem
- The nth root function
|
| Week 6/7
|
6.1
|
The Derivative
|
|
- Definition of the derivative of a function at a point
- Continuity is required for a function to be differentiable
- The constant, sum, product and quotient rules for derivatives
- Caratheodory's theorem
- The chain rule
|
| Week 7
|
6.1
|
Derivatives of Functions with Inverses
|
|
- Relation between continuous, strictly monotone functions and their inverses
|
| Week 7/8
|
6.2
|
The Mean Value Theorem
|
|
- Relative maximum and relative minimum of a function
- Interior extremum theorem
- Rolle's Theorem
- The Mean Value theorem
|
| Week 8
|
6.2
|
Extrema of a Function
|
|
- Increasing and Decreasing functions
- First Derivative test for extrema
- Applications of the Mean Value Theorem
- The Intermediate Value Property of Derivatives
|
| Week 8/9
|
6.3
|
L'Hospital's Rules
|
|
- Intermediate forms
- The Cauchy mean value theorem
- L'Hospital's Rule for limits of the 0/0 form
- L'Hospital's Rule for limits with infinity in the denominator
|
| Week 9
|
2.3
|
Taylor's Theorem
|
|
- Taylor's Theorem
- Applications of Taylor's theorem
|
| Week 9/10
|
6.4
|
Relative Extrema and Convex Functions
|
|
- Using higher order derivatives to determine where a function has a relative maximum or minimum
- Definition of a convex function
- Determining whether a function is convex using the second derivative
|
| Week 10
|
6.4
|
Newton's Method
|
|
- Description of Newton's Method
- Examples of Newton's Method
|
| Week 10/11
|
7.1
|
The Riemann Integral
|
|
- Partitions and tagged partitions
- The definition of the Reimann integral
|
| Week 11
|
7.1
|
Properties of the Integral
|
|
- Integrals multiplied by constants
- The sum of two integrals on a common interval
- If the functions f is less than the function g on some interval, then the integral of f will be less than the integral of g on that same interval.
- The Boundedness Theorem
|
| Week 11/12
|
7.2
|
Riemann Integrable Functions
|
|
- The Cauchy Criterion
- The squeeze theorem for integrals functions
- A step function is Riemann integrable
|
| Week 12
|
7.2
|
The Additivity Theorem
|
|
- The Additivity Theorem
- Interchanging the upper and lower bounds of the Riemann integral
|
| Week 12/13
|
7.3
|
The Fundamental Theorem
|
|
- Part one of the Fundamental theorem of calculus
- Part two of the fundamental theorem of calculus
|
| Week 13
|
7.3
|
The Substitution and Composition Theorems
|
|
- The substitution theorem
- Examples of evaluating integrals using the change of variable method
- The Composition Theorem
- The Product Theorem
|
| Week 13/14
|
7.3
|
Integration by Parts
|
|
- The method of Integration by Parts
- Taylor's Theorem with Remainder
|
| Week 14
|
7.4
|
The Darboux Integral
|
|
- Upper and Lower sums
- Upper and Lower integrals
- The Darboux Integral
- If a function is either continuous or monotone on a closed interval, then it is Darboux integrable on that interval.
- The equivalence of the Riemann and the Darboux integrals
|
